FR2491221A1 - AERIAL CABLES COMPRISING TUBULAR CONDUCTOR ELEMENTS CONTAINING OPTICAL FIBERS - Google Patents

Abstract

THE INVENTION CONCERNS IMPROVEMENTS TO AIR POWER CONDUCTORS AND PROTECTION CABLES WHICH CONTAIN OPTICAL FIBERS. PURSUANT TO THE INVENTION, THESE CONDUCTORS AND CABLES ARE MADE OF MATERIALS COMPATIBLE WITH EACH OTHER FROM THE ELECTROCHEMICAL POINT OF VIEW. IN A PREFERRED EMBODIMENT, THE ASSEMBLY FORMED BY THE RESISTANT ELEMENTS 14 AND THE CONDUCTIVE ELEMENTS 16 OF THE OVERHEAD CONDUCTORS OR PROTECTION CABLES CONSTITUTES AN ANTI-GIRATORY CABLE. THE OVERHEAD CABLES ACCORDING TO THE INVENTION ARE INSENSITIVE TO THE EFFECTS OF CORROSION OF AN ELECTROCHEMICAL NATURE. THEY ARE FURTHER INEXTENSIBLE WHILE RETAINING GOOD FLEXIBILITY.

Description

The present invention relates to improvements made to the body

lengthened intended

  to be suspended, the meaning of the term elongated bodies includes

  overhead power-carrying conductors or protective cables that contain

  telecommunications constituted by optical fibers.

  As is well known, overhead power transmission conductors are suspended by

  insulators at supports remote from each other.

  Grounding conductors known in the art

  that under the term protective cables can be in turn suspended over the conductors

  air transport power. The protection cables

  are attached directly to the supports without

lation.

  The function of the protection cables

  is to protect the overhead conductors against lightning.

  Indeed, the lightning is directed towards the

grounding conductor.

  The use of overhead power transmission conductors or protective cables

  as a support for telecommunication elements

  particularly coaxial pairs for the transmission of signals by the modulation

  coded pulses has been known for a long time.

  It is well known also that the outer diameter of these coaxial pairs can be

  limited to a few millimeters. This dimensionality

  has made it possible to arrange these coaxial

  vidually or inside the air conductors of

  power transmission or protection cables

  staggered by a ring of resistant elongated elements

and / or drivers.

  Most elongated elements resist

  tants are steel wires while the elements

  Elongated conductors are, for example, aluminum.

  The increasing use of optical fibers in the telecommunications field has resulted in, by analogy with what happens in the case of

  coaxial and small intakes <transverse dimensions

  which further characterize the optic fibers

  In addition, there is provision for the latter to pass inside the overhead

protection cables.

  The structure of overhead transmission conductors

  power port and protective cables containing

  telecommunications elements which include

  optical fibers and which are known so far does not differ significantly from the structure that is used for

  coaxial pairs (see for example the description of the

patent application GB 2 029 043A).

  In this application, optical fibers are

  freely placed inside an aluminum tube

  che surrounded by resistant cylindrical elements of steel or aluminum alloy. In the current state of the

  the resistant elements and the conductive elements

  are always made of different metallic alloys

different from each other.

  This characteristic of the state of the art

  that can cause serious inconvenience. Indeed, and

  the person skilled in the art knows it well

  corrosion causes due to electrochemical effects.

  These phenomena cause perforations that allow

  water to infiltrate between the fibers and even

all along their length.

  Water infiltrating into the microcracks of

  optical fiber, especially when it is often

  fatigue conditions, widens these cracks and

  alters the transmission characteristics. He can also

  change in the characteristics of the

  optical fibers or even a breakage of these fibers when stretched during installation and when the propellers

  resistance elements and conductive elements

  slow under the effect of traction, resulting in a long

  consecutive conduct of the overhead conductor or cable

  which exceeds the permissible value for fibers

  optical, this value being in itself very small.

  The Applicant proposes to remedy

to the disadvantages nrécités.

  In particular, the present application

  poses that the elongated bodies intended to be suspended and which contain optical fibers (hereinafter optical fiber will be understood to mean bare fiber or covered at least by the primary coating) have resistant elements

  and conductive, tubular or filiform elements consis-

  by compatible materials between them

1o electrochemical view.

  The elongated bodies intended to be sus-

  pendents which are the subject of the present application will also be highly inextensible in order to avoid excessive lengthening when stretched

  during their installation, while maintaining good

  its flexibility characteristics.

  The invention more precisely relates to an elongated body containing elements for

  telecommunications constituted by at least one or more

  optical fibers, these optical fibers being

  in the longitudinal cavity of a conductive element

  waterproof tubular member which is surrounded by resilient elongated members and conductive elongated members, said elongate body being characterized in that the tubular conductive member, the elongated resistive members and the conductive elongated members are made, at least with respect to their the outermost layer, with metals compatible with each other electrochemically.

  The preferred embodiment of the invention

  The invention is an elongated cylindrical body in which the resistant cylindrical elements are constituted by

  armed wires comprising a steel core coated with aluminum

  the tubular element and the elongated elements

ductors being made of aluminum.

  Another preferred embodiment of the invention is represented by an elongated cylindrical body in which the assembly formed by the elements

4 2491221

  elongated resistant and elongated conductors constitute

an anti-respiratory structure.

  The single figure of the appended drawing, given by way of non-limiting example, represents schematically and in perspective a nonlimiting embodiment example.

practice of the invention.

  In the figure, reference numeral 10 designates an elongate body intended to be suspended, this body being able to be an overhead power transport conductor as well

than a protective cable.

  The elongated body 10 comprises at least one or more optical fibers contained in the cavity

  longitudinal of a tubular conductive sealing element 12.

  The latter can be manufactured in any suitable manner, for example by extrusion, or by rolling

  a longitudinal ribbon of conductive material and

  the edges thus united. In addition, the tubular element

  12 is surrounded by a crown 13 of elements allon-

  are resistant 14 which are cylindrical in the case

considered.

  This first crown 13 is in turn

  a second ring 15 of elongated elements

  ductors 16 which are also cylindrical in the particular case considered. The conductive tubular element 12, the resistant cylinders 14 and the conductive cylinders 16 are made at least as regards their outermost layer, of metals compatible with each other from the point

electrochemical view.

  Elongated resistant elements and

  Elongated conductive elements could be arranged relative to each other in a different way from that shown in the drawing. For example, these elements could

  be arranged alternately on the crowns nmhes.

  A preferred embodiment of the invention

  comprises conductive cylindrical elements 16 and

  a tubular conductive element 12 made entirely of aluminum

  while the resistant cylindrical elements 14 are made from coated steel wires 17

249 122 1

  an outer layer 18 of aluminum. The aluminum core and steel core wires commercially available under the trade name "Allumoweld" have proved particularly suitable for this application. Naturally, the elements 14 can also be composed over their entire thickness of the same material, identical to that of the elements 12 and 16 or compatible with

  that of these elements 12 and 16 from the electrochemical point of view

nomic.

  For example, the elements 12, 14, 16 could be entirely made of an aluminum alloy or, only their outermost layer could be made

in this alloy.

  In addition, the first crown 13 and the

  second crown 15 are constituted, as indicated by

  in the drawing, by helicolds 13 or 15 respectively

  is lying. The resistant cylindrical elements 14 and the elements

  Conductive cylindrical elements 16 are coiled wires

in helix.

  The outer helicoid 15 is wound on the heli

  colde inside the axes of the two helicolds making with the axis X-X of the cable angles roughly equal but of

opposite senses.

  According to the invention, the assembly formed by the heli

  outer colde 15 and the inner helicoid 13 constitutes

an anti-respiratory structure.

  The person skilled in the art obtains the anti-piratory effect by suitably balancing the following parameters - S (section of the different helicoid wires) - 0 (pitch of the helix) - Sm (mean helicoid diameter) - E (Young's modulus) - G (modulus of tangential elasticity) This allows to give the elongated cylindrical bodies 10 to be suspended, the characteristics

  desire for inextensibility, together with a good flexibility

  ability and good ability to withstand twisting without deterioration.

Claims (4)

R E V E N D I C A T IO N S   1.- Elongated body or cable containing elements   telecommunications services consisting of at least one   optical fiber, the optical fiber or fibers being contained in the longitudinal cavity of a sealed tubular conductive element, itself surrounded by resistant elongate elements and conductive elongated elements, said elongate body being characterized in that the conductive element tubular (12), the elongate resistant members (14) and the conductive elongated members (16) are made,   at least as regards their outermost layer   with compatible metals between them electrochemical view.   2. Cable according to claim 1, characterized   in that the resilient elongated members (14) are constituted by armored wires comprising an aluminum coated steel core, the tubular conductive member and the   elongated conductive elements (15) being made of aluminum.   3. Cable according to claim 1,   characterized in that said resilient elongate members (14) are constituted by armored wires having a core (17) of aluminum alloy coated steel (18) the conductive tubular member (12) and the elements   elongate conductors (16) being made of aluminum alloy.   4. Cable according to any one of the claims   characterized in that the assembly formed by the resistant elongated elements (14) and the elements   elongated conductors (16) constitutes an anti- roundabout. -